From b4b6aa36e3486a3544acc52419149b5671f841e9 Mon Sep 17 00:00:00 2001 From: Siddharth11235 Date: Tue, 3 Sep 2019 18:09:16 +0530 Subject: Pushing entire Modelica HIL Tasks repo --- Flight_Dynamics.mo | 404 +++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 404 insertions(+) create mode 100644 Flight_Dynamics.mo (limited to 'Flight_Dynamics.mo') diff --git a/Flight_Dynamics.mo b/Flight_Dynamics.mo new file mode 100644 index 0000000..0435c35 --- /dev/null +++ b/Flight_Dynamics.mo @@ -0,0 +1,404 @@ +package Flight_Dynamics + extends Modelica.Icons.Package; + + class Components + block ForceMoment_Gen + import Modelica.Math.Matrices.*; + import Modelica.SIunits.*; + import Modelica.Blocks.Interfaces.*; + import Modelica.Math.Vectors.*; + parameter Real rho = 1.225; + parameter Real g = 9.81; + parameter Real m = 1043.26; + //1.56 for zagi + parameter Real S_ref = 16.1651; + //reference area + parameter Real C_bar = 1.493; + //average chord + parameter Real b = 10.911; + //span + parameter Real CD0 = 0.036; + //= 0.01631;for Zagi + parameter Real K_drag = 0.0830304; + //for cessna + parameter Real CD_beta = 0.17; + //for cessna + parameter Real CD_alpha = 0.2108; + parameter Real CD_q = 0; + parameter Real CD_delta_e = 0.3045; + //side force + parameter Real Cy_beta = -0.31; + //for cessna + parameter Real Cy_p = -0.037; + //for cessna + parameter Real Cy_r = 0.21; + //for cessna + parameter Real Cy_delta_r = 0.187; + //for cessna + parameter Real Cy_delta_a = 0; + //for cessna + // lift + parameter Real CL0 = 0.25; + //for cessna + parameter Real CL_alpha = 4.47; + //for cessna + parameter Real CL_q = 3.9; + //for cessna + parameter Real CL_delta_e = 0.3476; + //for cessna + // rolling moment + parameter Real Cl_beta = -0.089; + //for cessna + parameter Real Cl_p = -0.47; + //for cessna + parameter Real Cl_r = 0.096; + //for cessna + parameter Real Cl_delta_a = -0.09; + //for cessna + parameter Real Cl_delta_r = 0.0147; + //for cessna + // pitching moment + parameter Real Cm0 = -0.02; + //for cessna + parameter Real Cm_alpha = -1.8; + //for cessna + parameter Real Cm_q = -12.4; + //for cessna + parameter Real Cm_delta_e = -1.28; + //for cessna + // yawing moment + parameter Real Cn_beta = 0.065; + //for cessna + parameter Real Cn_p = -0.03; + //for cessna + parameter Real Cn_r = -0.99; + //for cessna + parameter Real Cn_delta_a = -0.0053; + //for cessna + parameter Real Cn_delta_r = -0.0657; + //for cessna + Real CL; + Real CD; + Real CY; + Real Cl; + Real Cm; + Real Cn; + Real CX; + Real CZ; + RealInput thrust annotation( + Placement(visible = true, transformation(origin = {-110, 0}, extent = {{-20, -20}, {20, 20}}, rotation = 0), iconTransformation(origin = {-110, 0}, extent = {{-20, -20}, {20, 20}}, rotation = 0))); + //Thrust force + RealInput[3] delta annotation( + Placement(visible = true, transformation(origin = {-110, -50}, extent = {{-20, -20}, {20, 20}}, rotation = 0), iconTransformation(origin = {-110, -50}, extent = {{-20, -20}, {20, 20}}, rotation = 0))); + RealInput[3] VAB annotation( + Placement(visible = true, transformation(origin = {-33, 110}, extent = {{-20, -20}, {20, 20}}, rotation = -90), iconTransformation(origin = {-33, 110}, extent = {{-20, -20}, {20, 20}}, rotation = -90))); + //V, alpha, beta + RealInput[3] omega annotation( + Placement(visible = true, transformation(origin = {33, 110}, extent = {{-20, -20}, {20, 20}}, rotation = -90), iconTransformation(origin = {33, 110}, extent = {{-20, -20}, {20, 20}}, rotation = -90))); + //Angular velocities + Real V = VAB[1]; + Real alpha = VAB[2]; + Real beta = VAB[3]; + Real p = omega[1]; + Real q = omega[2]; + Real r = omega[3]; + Real deltaE = delta[1]; + Real deltaR = delta[2]; + Real deltaA = delta[3]; + Real qbar = 0.5 * rho * V ^ 2; + RealOutput Force[3] annotation( + Placement(visible = true, transformation(origin = {110, 33}, extent = {{-20, -20}, {20, 20}}, rotation = 0), iconTransformation(origin = {110, 33}, extent = {{-20, -20}, {20, 20}}, rotation = 0))); + //Thrust force + RealOutput Moment[3] annotation( + Placement(visible = true, transformation(origin = {110, -33}, extent = {{-20, -20}, {20, 20}}, rotation = 0), iconTransformation(origin = {110, -33}, extent = {{-20, -20}, {20, 20}}, rotation = 0))); + //Thrust force + equation + CL = CL0 + CL_alpha * alpha + CL_q * q * C_bar / (2 * V) + CL_delta_e * deltaE; +//CD = CD0+CD_alpha*alpha+((CD_q*q*C_bar)/(2*V))+CD_delta_e*abs(deltaE) ; + CD = CD0 + K_drag * CL ^ 2; + CY = Cy_beta * beta + Cy_p * (p * b) / (2 * V) + Cy_r * (r * b) / (2 * V) + Cy_delta_a * deltaA + Cy_delta_r * deltaR; +//Sideslip coeff + Cl = Cl_beta * beta + Cl_p * (p * b) / (2 * V) + Cl_r * (r * b) / (2 * V) + Cl_delta_a * deltaA + Cl_delta_r * deltaR; +//Rolling coeff + Cm = Cm0 + Cm_alpha * alpha + Cm_q * q * C_bar / (2 * V) + Cm_delta_e * deltaE; +//pitching coeff + Cn = Cn_beta * beta + Cn_p * (p * b) / (2 * V) + Cn_r * (r * b) / (2 * V) + Cn_delta_a * deltaA + Cn_delta_r * deltaR; +//Yawing coeff + CX = (-CD * cos(alpha)) + CL * sin(alpha); + CZ = (-CD * sin(alpha)) - CL * cos(alpha); + Force[1] = thrust * cos(alpha) * cos(beta) - 0.5 * rho * V ^ 2 * S_ref * (CD * cos(beta) - CY * sin(beta)); + Force[2] = (-thrust * cos(alpha) * sin(beta)) + 0.5 * rho * V ^ 2 * S_ref * (CY * cos(beta) + CD * sin(beta)); + Force[3] = 0.5 * rho * V ^ 2 * S_ref * CL + thrust * sin(alpha); + Moment[2] = Cm * qbar * S_ref * C_bar; + Moment[1] = Cl * qbar * S_ref * b; + Moment[3] = Cn * qbar * S_ref * b; + end ForceMoment_Gen; + + block Flight6DOF + import Modelica.Math.Matrices.*; + import SI = Modelica.SIunits; + import Modelica.Blocks.Interfaces.*; + parameter Real g = 9.81; + parameter Real m = 1043.26; + //1.56 for zagi + parameter Real[3, 3] J = {{1285.31, 0.0, 0.0}, {0.0, 1824.93, 0.0}, {0.0, 0.0, 2666.893}}; + //12 states + RealOutput[3] omega(start = {0.0, 0.0, 0}) annotation( + Placement(visible = true, transformation(origin = {110, -33}, extent = {{-20, -20}, {20, 20}}, rotation = 0), iconTransformation(origin = {110, -33}, extent = {{-20, -20}, {20, 20}}, rotation = 0))); + //omega + Real OMEGA[3, 3] = skew(omega); + //Skew symmetric matrix form of the angular velocity term + Real V(start = 39.8858); + Real alpha(start = 0.1); + Real beta(start = 0); + RealOutput[3] VAB annotation( + Placement(visible = true, transformation(origin = {110, 33}, extent = {{-20, -20}, {20, 20}}, rotation = 0), iconTransformation(origin = {110, 33}, extent = {{-20, -20}, {20, 20}}, rotation = 0))); + //V, alpha, beta + Real x(start = 0); + Real y(start = 0); + Real z(start = 100); + Real mu(start = 0); + Real gamma(start = 0); + Real chi(start = 0); + RealInput Force[3] annotation( + Placement(visible = true, transformation(origin = {-110, 33}, extent = {{-20, -20}, {20, 20}}, rotation = 0), iconTransformation(origin = {-110, 33}, extent = {{-20, -20}, {20, 20}}, rotation = 0))); + //Thrust force + RealInput Moment[3] annotation( + Placement(visible = true, transformation(origin = {-110, -33}, extent = {{-20, -20}, {20, 20}}, rotation = 0), iconTransformation(origin = {-110, -33}, extent = {{-20, -20}, {20, 20}}, rotation = 0))); + //Thrust force + Real Vdot; + Real alphadot; + Real betadot; + Real[3] omegadot; + Real mudot; + Real gammadot; + Real chidot; + Real xdot; + Real ydot; + Real zdot; + equation + Vdot = der(V); + alphadot = der(alpha); + betadot = der(beta); + omegadot = der(omega); + xdot = der(x); + ydot = der(y); + zdot = der(z); + mudot = der(mu); + gammadot = der(gamma); + chidot = der(chi); + Vdot = 1 / m * (Force[1] - m * g * sin(gamma)); + alphadot = omega[2] - 1 / cos(beta) * ((omega[1] * cos(alpha) + omega[3] * sin(alpha)) * sin(beta) - g / V * cos(gamma) * cos(mu) + Force[3] / (m * V)); + betadot = omega[1] * sin(alpha) - omega[3] * cos(alpha) + 1 / (m * V) * (Force[2] + m * g * cos(gamma) * sin(mu)); + omegadot = inv(J) * (Moment - OMEGA * J * omega); + xdot = V * cos(gamma) * cos(chi); + ydot = V * cos(gamma) * sin(chi); + zdot = -V * sin(gamma); + mudot = omega[1] + tan(gamma) * sin(mu) * omega[2] + tan(gamma) * cos(mu) * omega[3]; + gammadot = cos(mu) * omega[2] - sin(mu) * omega[3]; + chidot = 1 / cos(gamma) * sin(mu) * omega[2] + 1 / cos(gamma) * cos(mu) * omega[3]; + VAB = {V, alpha, beta}; + annotation( + uses(Modelica(version = "3.2.2"))); + end Flight6DOF; + end Components; + + class Test_Cases + model CessnaTrim + // The initial values for delta[2] (elevator), alpha, thrust, and V are obtained by executing Trim_Conditions_Cessna.mo. + parameter Real m = 1043.26; + //1.56 for zagi + parameter Real s = 16.1651; + //reference area + parameter Real cbar = 1.493; + //average chord + parameter Real b = 10.911; + //span + parameter Real W[3] = m * {0, 0, 9.81}; + //gravitational force + //parameter Real b= 1.4224, cbar = 0.3302,s = 0.2589; + parameter Real CD0 = 0.036; + //= 0.01631;for Zagi + parameter Real K_drag = 0.0830304; + //for cessna + parameter Real CD_beta = 0.17; + //for cessna + parameter Real CD_alpha = 0.2108; + parameter Real CD_q = 0; + parameter Real CD_delta_e = 0.3045; + //side force + parameter Real Cy_beta = -0.31; + //for cessna + parameter Real Cy_p = -0.037; + //for cessna + parameter Real Cy_r = 0.21; + //for cessna + parameter Real Cy_delta_r = 0.187; + //for cessna + parameter Real Cy_delta_a = 0; + //for cessna + // lift + parameter Real CL0 = 0.25; + //for cessna + parameter Real CL_alpha = 4.47; + //for cessna + parameter Real CL_q = 3.9; + //for cessna + parameter Real CL_delta_e = 0.3476; + //for cessna + // rolling moment + parameter Real Cl_beta = -0.089; + //for cessna + parameter Real Cl_p = -0.47; + //for cessna + parameter Real Cl_r = 0.096; + //for cessna + parameter Real Cl_delta_a = -0.09; + //for cessna + parameter Real Cl_delta_r = 0.0147; + //for cessna + // pitching moment + parameter Real Cm0 = -0.02; + //for cessna + parameter Real Cm_alpha = -1.8; + //for cessna + parameter Real Cm_q = -12.4; + //for cessna + parameter Real Cm_delta_e = -1.28; + //for cessna + // yawing moment + parameter Real Cn_beta = 0.065; + //for cessna + parameter Real Cn_p = -0.03; + //for cessna + parameter Real Cn_r = -0.99; + //for cessna + parameter Real Cn_delta_a = -0.0053; + //for cessna + parameter Real Cn_delta_r = -0.0657; + //for cessna + //Initial conditions. (delta[2], thrust[1] and the others are straightforward) + parameter Real del[3] = {-0.15625, 0, 0}; + parameter Real thrust = 1112.82; + Flight_Dynamics.Components.ForceMoment_Gen forceMoment_Gen1 annotation( + Placement(visible = true, transformation(origin = {-18, 4}, extent = {{-10, -10}, {10, 10}}, rotation = 0))); + Flight_Dynamics.Components.Flight6DOF flight6DOF1 annotation( + Placement(visible = true, transformation(origin = {24, 4}, extent = {{-10, -10}, {10, 10}}, rotation = 0))); + equation + connect(forceMoment_Gen1.omega, flight6DOF1.omega) annotation( + Line(points = {{-14, 16}, {-14, 16}, {-14, 40}, {62, 40}, {62, 0}, {36, 0}, {36, 0}}, color = {0, 0, 127}, thickness = 0.5)); + connect(flight6DOF1.VAB, forceMoment_Gen1.VAB) annotation( + Line(points = {{36, 8}, {42, 8}, {42, 32}, {-20, 32}, {-20, 16}, {-22, 16}}, color = {0, 0, 127}, thickness = 0.5)); + connect(forceMoment_Gen1.Moment, flight6DOF1.Moment) annotation( + Line(points = {{-6, 0}, {12, 0}, {12, 0}, {14, 0}}, color = {0, 0, 127}, thickness = 0.5)); + connect(forceMoment_Gen1.Force, flight6DOF1.Force) annotation( + Line(points = {{-6, 8}, {12, 8}, {12, 8}, {14, 8}}, color = {0, 0, 127}, thickness = 0.5)); + forceMoment_Gen1.thrust = thrust; + forceMoment_Gen1.delta = del; + annotation( + experiment(StartTime = 0, StopTime = 100, Tolerance = 1e-3, Interval = 0.001), + uses(Modelica(version = "3.2.2"))); + end CessnaTrim; + + model CessnaPerturbed + //The initial values for delta[2] (elevator), alpha, thrust, and V are obtained by executing Trim_Conditions_Cessna.mo. + parameter Real m = 1043.26; + //1.56 for zagi + parameter Real s = 16.1651; + //reference area + parameter Real cbar = 1.493; + //average chord + parameter Real b = 10.911; + //span + parameter Real W[3] = m * {0, 0, 9.81}; + //gravitational force + //parameter Real b= 1.4224, cbar = 0.3302,s = 0.2589; + parameter Real CD0 = 0.036; + //= 0.01631;for Zagi + parameter Real K_drag = 0.0830304; + //for cessna + parameter Real CD_beta = 0.17; + //for cessna + parameter Real CD_alpha = 0.2108; + parameter Real CD_q = 0; + parameter Real CD_delta_e = 0.3045; + //side force + parameter Real Cy_beta = -0.31; + //for cessna + parameter Real Cy_p = -0.037; + //for cessna + parameter Real Cy_r = 0.21; + //for cessna + parameter Real Cy_delta_r = 0.187; + //for cessna + parameter Real Cy_delta_a = 0; + //for cessna + // lift + parameter Real CL0 = 0.25; + //for cessna + parameter Real CL_alpha = 4.47; + //for cessna + parameter Real CL_q = 3.9; + //for cessna + parameter Real CL_delta_e = 0.3476; + //for cessna + // rolling moment + parameter Real Cl_beta = -0.089; + //for cessna + parameter Real Cl_p = -0.47; + //for cessna + parameter Real Cl_r = 0.096; + //for cessna + parameter Real Cl_delta_a = -0.09; + //for cessna + parameter Real Cl_delta_r = 0.0147; + //for cessna + // pitching moment + parameter Real Cm0 = -0.02; + //for cessna + parameter Real Cm_alpha = -1.8; + //for cessna + parameter Real Cm_q = -12.4; + //for cessna + parameter Real Cm_delta_e = -1.28; + //for cessna + // yawing moment + parameter Real Cn_beta = 0.065; + //for cessna + parameter Real Cn_p = -0.03; + //for cessna + parameter Real Cn_r = -0.99; + //for cessna + parameter Real Cn_delta_a = -0.0053; + //for cessna + parameter Real Cn_delta_r = -0.0657; + //for cessna + //Initial conditions. (delta[2], thrust[1] and the others are straightforward) + parameter Real del[3] = {-0.15625, 0, 0}; + parameter Real thrust = 1112.82; + Flight_Dynamics.Components.ForceMoment_Gen forceMoment_Gen1 annotation( + Placement(visible = true, transformation(origin = {-23, 7}, extent = {{-23, -23}, {23, 23}}, rotation = 0))); + Flight_Dynamics.Components.Flight6DOF flight6DOF1 annotation( + Placement(visible = true, transformation(origin = {52, 6}, extent = {{-26, -26}, {26, 26}}, rotation = 0))); + Modelica.Blocks.Sources.RealExpression delta annotation( + Placement(visible = true, transformation(origin = {-142, -5}, extent = {{-26, -47}, {26, 47}}, rotation = 0))); + equation + connect(delta.y, forceMoment_Gen1.delta) annotation( + Line(points = {{-113, -5}, {-50, -5}, {-50, -4}, {-48, -4}}, color = {0, 0, 127}, thickness = 0.5)); + connect(forceMoment_Gen1.omega, flight6DOF1.omega) annotation( + Line(points = {{-16, 32}, {-16, 32}, {-16, 78}, {98, 78}, {98, -2}, {80, -2}, {80, -2}}, color = {0, 0, 127}, thickness = 0.5)); + connect(forceMoment_Gen1.VAB, flight6DOF1.VAB) annotation( + Line(points = {{-30, 32}, {-28, 32}, {-28, 64}, {84, 64}, {84, 14}, {80, 14}}, color = {0, 0, 127}, thickness = 0.5)); + connect(forceMoment_Gen1.Force, flight6DOF1.Force) annotation( + Line(points = {{2, 14}, {22, 14}, {22, 14}, {24, 14}}, color = {0, 0, 127}, thickness = 0.5)); + connect(forceMoment_Gen1.Moment, flight6DOF1.Moment) annotation( + Line(points = {{2, 0}, {26, 0}, {26, -2}, {24, -2}}, color = {0, 0, 127}, thickness = 0.5)); + forceMoment_Gen1.thrust = thrust; + annotation( + experiment(StartTime = 0, StopTime = 300, Tolerance = 1e-3, Interval = 0.001), + uses(Modelica(version = "3.2.2"))); + end CessnaPerturbed; + end Test_Cases; + annotation( + uses(Modelica(version = "3.2.2"))); +end Flight_Dynamics; \ No newline at end of file -- cgit